URL
https://opencores.org/ocsvn/openrisc_me/openrisc_me/trunk
Subversion Repositories openrisc_me
[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.5.1/] [gcc/] [testsuite/] [ada/] [acats/] [tests/] [cxg/] [cxg1004.a] - Rev 294
Compare with Previous | Blame | View Log
-- CXG1004.A
--
-- Grant of Unlimited Rights
--
-- Under contracts F33600-87-D-0337, F33600-84-D-0280, MDA903-79-C-0687,
-- F08630-91-C-0015, and DCA100-97-D-0025, the U.S. Government obtained
-- unlimited rights in the software and documentation contained herein.
-- Unlimited rights are defined in DFAR 252.227-7013(a)(19). By making
-- this public release, the Government intends to confer upon all
-- recipients unlimited rights equal to those held by the Government.
-- These rights include rights to use, duplicate, release or disclose the
-- released technical data and computer software in whole or in part, in
-- any manner and for any purpose whatsoever, and to have or permit others
-- to do so.
--
-- DISCLAIMER
--
-- ALL MATERIALS OR INFORMATION HEREIN RELEASED, MADE AVAILABLE OR
-- DISCLOSED ARE AS IS. THE GOVERNMENT MAKES NO EXPRESS OR IMPLIED
-- WARRANTY AS TO ANY MATTER WHATSOEVER, INCLUDING THE CONDITIONS OF THE
-- SOFTWARE, DOCUMENTATION OR OTHER INFORMATION RELEASED, MADE AVAILABLE
-- OR DISCLOSED, OR THE OWNERSHIP, MERCHANTABILITY, OR FITNESS FOR A
-- PARTICULAR PURPOSE OF SAID MATERIAL.
--*
--
-- OBJECTIVE:
-- Check that the specified exceptions are raised by the subprograms
-- defined in package Ada.Numerics.Generic_Complex_Elementary_Functions
-- given the prescribed input parameter values.
--
-- TEST DESCRIPTION:
-- This test checks that specific subprograms defined in the
-- package Ada.Numerics.Generic_Complex_Elementary_Functions raise the
-- exceptions Argument_Error and Constraint_Error when their input
-- parameter value are those specified as causing each exception.
-- In the case of Constraint_Error, the exception will be raised in
-- each test case, provided that the value of the attribute
-- 'Machine_Overflows (for the actual type of package
-- Generic_Complex_Type) is True.
--
-- APPLICABILITY CRITERIA:
-- This test only applies to implementations supporting the
-- numerics annex.
--
--
-- CHANGE HISTORY:
-- 06 Dec 94 SAIC ACVC 2.0
-- 16 Nov 95 SAIC Corrected visibility problems for ACVC 2.0.1.
-- 29 Sep 96 SAIC Incorporated reviewer comments.
-- 02 Jun 98 EDS Replace "_i" with "_One".
--!
with Ada.Numerics.Generic_Complex_Types;
with Ada.Numerics.Generic_Complex_Elementary_Functions;
with Report;
procedure CXG1004 is
begin
Report.Test ("CXG1004", "Check that the specified exceptions are " &
"raised by the subprograms defined in package " &
"Ada.Numerics.Generic_Complex_Elementary_" &
"Functions given the prescribed input " &
"parameter values");
Test_Block:
declare
type Real_Type is new Float;
TC_Overflows : Boolean := Real_Type'Machine_Overflows;
package Complex_Pack is
new Ada.Numerics.Generic_Complex_Types(Real_Type);
package CEF is
new Ada.Numerics.Generic_Complex_Elementary_Functions(Complex_Pack);
use Ada.Numerics, Complex_Pack, CEF;
Complex_Zero : constant Complex := Compose_From_Cartesian(0.0, 0.0);
Plus_One : constant Complex := Compose_From_Cartesian(1.0, 0.0);
Minus_One : constant Complex := Compose_From_Cartesian(-1.0, 0.0);
Plus_i : constant Complex := Compose_From_Cartesian(i);
Minus_i : constant Complex := Compose_From_Cartesian(-i);
Complex_Negative_Real : constant Complex :=
Compose_From_Cartesian(-4.0, 2.0);
Complex_Negative_Imaginary : constant Complex :=
Compose_From_Cartesian(3.0, -5.0);
TC_Complex : Complex;
-- This procedure is used in "Exception Raising" calls below in an
-- attempt to avoid elimination of the subtest through optimization.
procedure No_Optimize (The_Complex_Number : Complex) is
begin
Report.Comment("No Optimize: Should never be printed " &
Integer'Image(Integer(The_Complex_Number.Im)));
end No_Optimize;
begin
-- Check that the exception Numerics.Argument_Error is raised by the
-- exponentiation operator when the value of the left operand is zero,
-- and the real component of the exponent (or the exponent itself) is
-- zero.
begin
TC_Complex := "**"(Left => Complex_Zero, Right => Complex_Zero);
Report.Failed("Argument_Error not raised by exponentiation " &
"operator, left operand = complex zero, right " &
"operand = complex zero");
No_Optimize(TC_Complex);
exception
when Argument_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised by exponentiation " &
"operator, left operand = complex zero, right " &
"operand = complex zero");
end;
begin
TC_Complex := Complex_Zero**0.0;
Report.Failed("Argument_Error not raised by exponentiation " &
"operator, left operand = complex zero, right " &
"operand = real zero");
No_Optimize(TC_Complex);
exception
when Argument_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised by exponentiation " &
"operator, left operand = complex zero, right " &
"operand = real zero");
end;
begin
TC_Complex := "**"(Left => 0.0, Right => Complex_Zero);
Report.Failed("Argument_Error not raised by exponentiation " &
"operator, left operand = real zero, right " &
"operand = complex zero");
No_Optimize(TC_Complex);
exception
when Argument_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised by exponentiation " &
"operator, left operand = real zero, right " &
"operand = complex zero");
end;
-- Check that the exception Constraint_Error is raised under the
-- specified circumstances, provided that
-- Complex_Types.Real'Machine_Overflows is True.
if TC_Overflows then
-- Raised by Log, when the value of the parameter X is zero.
begin
TC_Complex := Log (X => Complex_Zero);
Report.Failed("Constraint_Error not raised when Function " &
"Log given parameter value of complex zero");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Log given parameter value of complex zero");
end;
-- Raised by Cot, when the value of the parameter X is zero.
begin
TC_Complex := Cot (X => Complex_Zero);
Report.Failed("Constraint_Error not raised when Function " &
"Cot given parameter value of complex zero");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Cot given parameter value of complex zero");
end;
-- Raised by Coth, when the value of the parameter X is zero.
begin
TC_Complex := Coth (Complex_Zero);
Report.Failed("Constraint_Error not raised when Function " &
"Coth given parameter value of complex zero");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Coth given parameter value of complex zero");
end;
-- Raised by the exponentiation operator, when the value of the
-- left operand is zero and the real component of the exponent
-- is negative.
begin
TC_Complex := Complex_Zero**Complex_Negative_Real;
Report.Failed("Constraint_Error not raised when the " &
"exponentiation operator left operand is " &
"complex zero, and the real component of " &
"the exponent is negative");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when the " &
"exponentiation operator left operand is " &
"complex zero, and the real component of " &
"the exponent is negative");
end;
-- Raised by the exponentiation operator, when the value of the
-- left operand is zero and the exponent itself (when it is of
-- type real) is negative.
declare
Negative_Exponent : constant Real_Type := -4.0;
begin
TC_Complex := Complex_Zero**Negative_Exponent;
Report.Failed("Constraint_Error not raised when the " &
"exponentiation operator left operand is " &
"complex zero, and the real exponent is " &
"negative");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when the " &
"exponentiation operator left operand is " &
"complex zero, and the real exponent is " &
"negative");
end;
-- Raised by Arctan, when the value of the parameter is +i.
begin
TC_Complex := Arctan (Plus_i);
Report.Failed("Constraint_Error not raised when Function " &
"Arctan is given parameter value +i");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Arctan is given parameter value +i");
end;
-- Raised by Arctan, when the value of the parameter is -i.
begin
TC_Complex := Arctan (Minus_i);
Report.Failed("Constraint_Error not raised when Function " &
"Arctan is given parameter value -i");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Arctan is given parameter value -i");
end;
-- Raised by Arccot, when the value of the parameter is +i.
begin
TC_Complex := Arccot (Plus_i);
Report.Failed("Constraint_Error not raised when Function " &
"Arccot is given parameter value +i");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Arccot is given parameter value +i");
end;
-- Raised by Arccot, when the value of the parameter is -i.
begin
TC_Complex := Arccot (Minus_i);
Report.Failed("Constraint_Error not raised when Function " &
"Arccot is given parameter value -i");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Arccot is given parameter value -i");
end;
-- Raised by Arctanh, when the value of the parameter is +1.
begin
TC_Complex := Arctanh (Plus_One);
Report.Failed("Constraint_Error not raised when Function " &
"Arctanh is given parameter value +1");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Arctanh is given parameter value +1");
end;
-- Raised by Arctanh, when the value of the parameter is -1.
begin
TC_Complex := Arctanh (Minus_One);
Report.Failed("Constraint_Error not raised when Function " &
"Arctanh is given parameter value -1");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Arctanh is given parameter value -1");
end;
-- Raised by Arccoth, when the value of the parameter is +1.
begin
TC_Complex := Arccoth (Plus_One);
Report.Failed("Constraint_Error not raised when Function " &
"Arccoth is given parameter value +1");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Arccoth is given parameter value +1");
end;
-- Raised by Arccoth, when the value of the parameter is -1.
begin
TC_Complex := Arccoth (Minus_One);
Report.Failed("Constraint_Error not raised when Function " &
"Arccoth is given parameter value -1");
No_Optimize(TC_Complex);
exception
when Constraint_Error => null; -- OK, expected exception.
when others =>
Report.Failed("Incorrect exception raised when Function " &
"Arccoth is given parameter value -1");
end;
else
Report.Comment
("Attribute Complex_Pack.Real'Machine_Overflows is False; " &
"evaluation of the complex elementary functions under " &
"specified circumstances was not performed");
end if;
exception
when others =>
Report.Failed ("Unexpected exception raised in Test_Block");
end Test_Block;
Report.Result;
end CXG1004;